Low Density

Overview

Low density refers to a property or characteristic of a substance or material that has relatively low mass per unit volume. In the context of chemistry, low density is commonly associated with materials such as gases, liquids, and polymers that are less dense than solids. Low density materials are of particular interest in many fields of research, including energy storage, materials science, and nanotechnology. One of the key applications of low density materials is in the development of lightweight materials for use in a wide range of industries. For example, low density polymers are commonly used in the aerospace industry to manufacture lightweight components such as airframes, wings, and engine parts. Similarly, low density metals such as aluminum and magnesium are used in the automotive industry to reduce weight and increase fuel efficiency. Another important application of low density materials is in the development of energy storage technologies. Batteries and fuel cells, for instance, rely on materials that can store large amounts of energy in a relatively small space. By using low density materials as the building blocks of these devices, researchers can develop more efficient and lightweight energy storage systems. In addition to their practical applications, low density materials are also of great scientific interest. Researchers are currently exploring the properties and behavior of low density solids, such as aerogels, which have unique physical and chemical properties. These materials could lead to new advances in areas such as electronics, catalysis, and environmental science. Overall, low density materials represent a promising field of research with numerous potential applications across a wide range of industries. By utilizing the unique properties of these materials, scientists and engineers can develop innovative solutions to some of the world's most pressing problems.

Research published in this journal

12 peer-reviewed articles, ranked by relevance. Each links to its DOI.

How this research is being cited

The 12 articles above have been cited 82 times in the scholarly literature. Citation data via OpenAlex and Crossref, updated Jun 2026.

• Functional Food Rich in Bioactive Components for Management of Obesity and Related Metabolic Changes in Obese Women
  2026 · Journal of Food Biochemistry
• Effects of different doses of Foeniculum vulgare Mill. seeds on growth performance, intestinal and liver histology and gene expression levels in quail
  2026 · Veterinaria México OA
• Mushroom-derived Immunomodulators: Mechanistic insights, omics integration, AI innovation, and clinical applications in precision immunotherapy
  2026 · International Immunopharmacology
• SolPred: A machine learning based mobile phase composition prediction tool for the pharmaceutical compounds analysis in RP-HPLC
  2025 · Journal of Liquid Chromatography & Related Technologies
• Minimally invasive transcrestal sinus elevation: 1-year clinical report
  M. A. Faizal et al. · 2025 · Romanian Journal of Stomatology
• SolPred: A machine learning based mobile phase composition prediction tool for the pharmaceutical compounds analysis in RP-HPLC
  2025 · Journal of Liquid Chromatography &amp Related Technologies
• Foeniculum vulgare (Fennel): A comprehensive review of its anti-diabetic properties
  2025 · Asian Pacific Journal of Tropical Biomedicine
• Therapeutic Effect of Fennel Seeds in the Management of Obesity
  2025 · Pakistan BioMedical Journal

A sample of recent works citing this journal's research on Low Density, linking to each citing work.

This page summarises published research for orientation; it is not medical or professional advice.

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